Abstract: Compounds that selectivity inhibit the STAT3 pathway and not the STAT1 pathway and exhibit anti-proliferative activity are disclosed. Also disclosed are methods of treatment of cancers that are characterized by overexpression of STAT3, which are safer that other therapies.

Abstract: Compounds that selectivity inhibit the STAT3 pathway and not the STAT1 pathway and exhibit anti-proliferative activity are disclosed. Also disclosed are methods of treatment of cancers that are characterized by overexpression of STAT3, which are safer that other therapies.

Abstract: Compounds that selectivity inhibit the STAT3 pathway and not the STAT1 pathway and exhibit anti-proliferative activity are disclosed. Also disclosed are methods of treatment of cancers that are characterized by overexpression of STAT3, which are safer that other therapies.

Abstract: Compounds that selectivity inhibit the STAT3 pathway and not the STAT1 pathway and exhibit anti-proliferative activity are disclosed. Also disclosed are methods of treatment of cancers that are characterized by overexpression of STAT3, which are safer that other therapies.

Abstract: The present invention provides methods related to the treatment of head and neck squamous cell carcinoma (HNSCC) and its associated premalignant lesions. In particular, the invention features methods which may specifically target HNSCC-associated genes and alter gene expression to treat or alleviate a symptom of HNSCC, or its related premalignant lesions. These methods may involve decreasing the function of an HNSCC-associated gene with aberrant gain-of-function; or increasing the function of an HNSCC-associated gene with aberrant loss-of-function.

Abstract: A class of antisense agents having a distributed guanidinium peptide nucleic acids (GPNA) backbone which has excellent uptake into mammalian cells, can bind to the target DNA or RNA in a highly sequence specific manner and can resist nucleases and proteases both outside and inside the cell(s) of interest. In one embodiment, either systemic or intratumoral administration of antisense Epidermal Growth Factor Receptor (“EGFR”) GPNA oligonucleotides is believed to downmodulate EGFR levels, thus in turn to reduce head and neck squamous cell carcinoma tumor growth, which has been confirmed to date both in vitro and in vivo.

Abstract: The present invention provides methods related to the treatment of head and neck squamous cell carcinoma (HNSCC) and its associated premalignant lesions. In particular, the invention features methods which may specifically target HNSCC-associated genes and alter gene expression to treat or alleviate a symptom of HNSCC, or its related premalignant lesions. These methods may involve decreasing the function of an HNSCC-associated gene with aberrant gain-of-function; or increasing the function of an HNSCC-associated gene with aberrant loss-of-function.

Abstract: A class of antisense agents having a distributed guanidinium peptide nucleic acids (GPNA) backbone which has excellent uptake into mammalian cells, can bind to the target DNA or RNA in a highly sequence specific manner and can resist nucleases and proteases both outside and inside the cell(s) of interest. In one embodiment, either systemic or intratumoral administration of antisense Epidermal Growth Factor Receptor (“EGFR”) GPNA oligonucleotides is believed to downmodulate EGFR levels, thus in turn to reduce head and neck squamous cell carcinoma tumor growth, which has been confirmed to date both in vitro and in vivo.

Abstract: A class of antisense agents having a distributed guanidinium peptide nucleic acids (GPNA) backbone which has excellent uptake into mammalian cells, can bind to the target DNA or RNA in a highly sequence specific manner and can resist nucleases and proteases both outside and inside the cell(s) of interest. In one embodiment, either systemic or intratumoral administration of antisense Epidermal Growth Factor Receptor (“EGFR”) GPNA oligonucleotides is believed to downmodulate EGFR levels, thus in turn to reduce head and neck squamous cell carcinoma tumor growth, which has been confirmed to date both in vitro and in vivo.

Abstract: A class of antisense agents having a distributed guanidinium peptide nucleic acids (GPNA) backbone which has excellent uptake into mammalian cells, can bind to the target DNA or RNA in a highly sequence specific manner and can resist nucleases and proteases both outside and inside the cell(s) of interest. In one embodiment, either systemic or intratumoral administration of antisense Epidermal Growth Factor Receptor (“EGFR”) GPNA oligonucleotides is believed to downmodulate EGFR levels, thus in turn to reduce head and neck squamous cell carcinoma tumor growth, which has been confirmed to date both in vitro and in vivo.

Abstract: A cancer prognostic having particular utility in the prognosis of head and neck squamous cell cancer, in which the expression levels of either or both of Transforming Growth Factor Alpha (TGF-.alpha.) or Epidermal Growth Factor Receptor (EGFR) are assayed directly from a sample of tumor tissue. The expression level once quantitated is normalized as to standard, and the standardized expression level is compared to the prognostic threshold of about 83% of standard for TGF-.alpha. or of about 23% of standard for EGFR, or the corresponding upper threshold of the "low" tertile regardless of how calculated. Virtually all if not all patients demonstrating this low expression level survive at least five years after initial diagnosis, assuming completion of treatment with standard surgical tumor excision and radiation protocols for squamous cell head and neck cancer. Whether an individual patient's expression levels of TGF-.alpha.